quantum computers

...states until an observation, or measurement, “collapses” their various possible states into one actual state. This means that if a system of particles—known as quantum bits, or
qubits—can be “entangled” together, all the possible combinations of their states can be simultaneously used to perform a computation, at least in theory.

...binary digits, or bits, that can be in one of two states, represented as 0 and 1; thus, for example, a 4-bit computer register can hold any one of 16 (2
4) possible numbers. In contrast, a quantum bit (
qubit) exists in a wavelike superposition of values from 0 to 1; thus, for example, a 4-
qubit computer register can hold 16 different numbers simultaneously. In theory, a quantum...

Quantum computers based on semiconductor technology are yet another possibility. In a common approach a discrete number of free electrons (
qubits) reside within extremely small regions, known as quantum dots, and in one of two spin states, interpreted as 0 and 1. Although prone to decoherence, such quantum computers build on well-established, solid-state techniques and offer the prospect of...

work of Glauber

...role in efforts to develop a new generation of computers, so-called quantum computers, which would be extraordinarily fast and powerful and use quantum-mechanical phenomena to process data as
qubits, or quantum bits, of information.